Latent catalysts for epoxy-phenolic reactions

ABSTRACT

Latent catalyst compounds for catalyzing the reaction between epoxide groups and aromatic hydroxyl groups are prepared by contacting a nitrogen-containing heterocyclic compound with an acid having a weak nucleophilic anion.

CROSSREFERENCE TO RELATED APPLICATIONS

This application is a division of application Ser. No. 07/274,227 filed Nov. 18, 1988 (now abandoned) which is a continuation-in-part of application Ser. No. 155,381 filed Feb. 12, 1988 (now abandoned), which is a continuation-in-part of application Ser. No. 021,837 filed Mar. 4, 1987 (now U.S. Pat. No. 4,725,652), which is a continuation-in-part of application Ser. No. 849,087 filed Apr. 7, 1986 (now abandoned), which is a continuation-in-part of application Ser. No. 716,279 filed Mar. 25, 1985, (now U.S. Pat. No. 4,594,291), which is a continuation-in-part of application Ser. No. 631,676, filed Jul. 17, 1984 (now abandoned); all of which are incorporated herein by reference.

FIELD OF THE INVENTION

The present invention concerns latent, curable, catalyzed mixtures of epoxy-containing compounds and aromatic hydroxyl-containing compounds. The present invention also concerns latent catalysts and epoxy resin compositions containing them.

BACKGROUND OF THE INVENTION

Epoxy resins have been precatalyzed with phosphonium and other compounds to provide latent compositions which form advanced, higher molecular weight epoxy resins when admixed with an aromatic hydroxyl-containing compound as disclosed by Perry in U.S. Pat. No. 3,948,855 and Can. 893,191; by Dante et al. in U.S. Pat. No. 3,477,990; by Mueller et al. in U.S. Pat. No. 3,547,881; by Tyler, Jr. et al. in U.S. Pat. No. 4,366,295; and by Cragar in Can. 858,648.

While compositions containing these catalysts and an epoxy resin are somewhat stable, such compositions which also contain an aromatic hydroxyl-containing compound are lacking in stability.

Curable compositions containing epoxy resins and aromatic hydroxyl-containing compounds and a catalyst therefor would be highly desirable in the preparation of storage stable coatings, storage stable electrical encapsulants, storage stable formulations for preparing mechanical and electrical laminates and composites, storage stable one package molding compositions, storage stable curable compositions for use in resin transfer molding (RTM) and reaction injection molding (RIM) applications and the like.

SUMMARY OF THE INVENTION

The present invention pertains to (A) the product resulting from contacting (1) at least one heterocyclic nitrogen-containing compound other than pyridine with (2) (a) an inorganic acid free of boron, said inorganic acid having a weak-nucleophilic anion, (b) an inorganic acid containing boron represented by the formula BR₃ R' wherein each R is independently hydrogen or an aliphatic, cycloaliphatic or aromatic hydrocarbyl group having from 1 to about 12 carbon atoms or a halogen and R' is a a group other than a hydrocarbyl group, or (c) any combination of components (a) or (b); or (B) the product resulting from contacting (1) an adduct of at least one acid having a relatively strong nucleophilic anion and at least one heterocyclic nitrogen-containing compound other than pyridine with (2) (a) a salt of an inorganic acid free of boron, said inorganic acid having a weak-nucleophilic anion, (b) a salt of an inorganic acid containing boron represented by the formula BR₃ R' wherein each R is independently hydrogen or an aliphatic, cycloaliphatic or aromatic hydrocarbyl group having from 1 to about 12 carbon atoms or a halogen and R' is a a group other than a hydrocarbyl group, or (c) any combination of components (a) or (b);--wherein components (1) and (2) are contacted in quantities which provide from about 0.6 to about 1.4 moles of acid or acid salt per mole of heterocyclic nitrogen-containing compound or acid adduct of heterocyclic nitrogen-containing compound.

The present invention also pertains to imidazolonium compounds represented by the following formula I ##STR1## wherein each R^(a), R^(b), R^(c) and R^(d) are independently hydrogen or a hydrocarbyl group having from 1 to about 18 carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen substituent, or R^(b) and R^(c) can combine to form a 5 or 6 membered ring with the carbon and nitrogen atoms from the imidazole ring to which they are attached or R^(c) and R^(d) can combine to form a 5 or 6 membered ring with the two carbon atoms from the imidazole ring to which they are attached; and X is the anion portion of (a) an inorganic acid free of boron having a weak nucleophilic anion or (b) a boron containing inorganic acid represented by the formula HBR₃ R' wherein each R is independently hydrogen or an aliphatic, cycloaliphatic or aromatic hydrocarbyl group having from 1 to about 12 carbon atoms or a halogen and R' is a halogen.

Further, the present invention pertains to morpholinonium compounds represented by the following formula II ##STR2## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f), R^(g), R^(h) and R^(i) is independently hydrogen, or a hydrocarbyl group having from 1 to about 18 carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent; and X is the anion portion of an acid having a weak-nucleophilic anion or a combination of such acids.

Further, the present invention pertains to pyrrolidinonium compounds represented by the following formula III ##STR3## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f), R^(g), R^(h) and R^(i) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, halogen or the like substituent with the proviso that at least one of R^(a), R^(b), R^(c), R^(d), R^(e), R^(f), R^(g), R^(h) or R^(i) is a substituent other than hydrogen when X is the BF₄ anion; and X is the anion portion of an acid having a weak nucleophilic anion.

Further, the present invention pertains to pyridinonium compounds represented by the following formula IV ##STR4## wherein each R^(a), R^(b), R^(c), R^(d) and R^(e) is independently hydrogen or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, halogen or the like substituent; and X is the anion portion of an acid having a weak-nucleophilic anion.

Further, the present invention pertains to pyrazolinonium compounds represented by the following formula V ##STR5## wherein each R^(a), R^(b), R^(c) and R^(d) is independently hydrogen or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen substituent, or R^(b) and R^(c) can combine to form a 5 or 6 membered ring with the carbon and nitrogen atoms from the pyrazole ring to which they are attached or R^(c) and R^(d) can combine to form a 5 or 6 membered ring with the two carbon atoms from the pyrazole ring to which they are attached; and X is the anion portion of an acid having a weak-nucleophilic anion.

Further, the present invention pertains to oxazolinonium compounds represented by the following formula VI ##STR6## wherein each R^(a), R^(b) and R^(c) is independently hydrogen or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent; and X is the anion portion of an acid having a weak-nucleophilic anion.

Further, the present invention pertains to imidazolidinonium compounds represented by the following formula VII ##STR7## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f), R^(g) and R^(h) is independently hydrogen or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent; and X is the anion portion of an acid having a weak-nucleophilic anion.

Further, the present invention pertains to imidazolinonium compounds represented by the following formula VIII ##STR8## wherein each R^(a), R^(b), R^(c), R^(d), R^(e) and R^(f) is independently hydrogen or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent; and X is the anion portion of an acid having a weak nucleophilic anion.

Further, the present invention pertains to thiazolonium compounds represented by the following formula IX ##STR9## wherein each R^(a), R^(b) and R^(c) is independently hydrogen or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent; and X is the anion portion of an acid having a weak-nucleophilic anion.

Further, the present invention pertains to pyrrolonium compounds represented by the following formula X ##STR10## wherein each R^(a), R^(b), R^(c), R^(d) and R^(e) is independently hydrogen or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent; and X is the anion portion of an acid having a weak nucleophilic anion.

Further, the present invention pertains to pyrazinonium compounds represented by the following formula XI ##STR11## wherein each R^(a), R^(b), R^(c) and R^(d) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent; and X is the anion portion of an acid having a weak nucleophilic anion.

Further, the present invention pertains to pyridazinonium compounds represented by the following formula XII ##STR12## wherein each R^(a), R^(b), R^(c), and R^(d) is independently hydrogen, hydrogen or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent; and X is the anion portion of an acid having a weak nucleophilic anion.

Further, the present invention pertains to pyrimidinonium compounds represented by the following formula XIII ##STR13## wherein each R^(a), R^(b) and R^(c) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent; and X is the anion portion of an acid having a weak nucleophilic anion.

Further, the present invention pertains to quinoxalinonium compounds represented by the following formula XIV ##STR14## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), and R^(f) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen substituent; and X is the anion portion of an acid having a weak nucleophilic anion.

Further, the present invention pertains to quinazolinonium compounds represented by the following formula XV ##STR15## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), and R^(f) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent; and X is the anion portion of an acid having a weak nucleophilic anion.

Further, the present invention pertains to phthalazinonium compounds represented by the following formula XVI ##STR16## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), and R^(f) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent; and X is the anion portion of an acid having a weak nucleophilic anion.

Further, the present invention pertains to quinolinonium compounds represented by the following formula XVII ##STR17## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f) and R^(g) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent; and X is the anion portion of an acid having a weak nucleophilic anion.

Further, the present invention pertains to purinonium compounds represented by the following formula XVIII ##STR18## wherein each R^(a), R^(b), R^(c) and R^(d) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent; and X is the anion portion of an acid having a weak nucleophilic anion.

Further, the present invention pertains to indazolonium compounds represented by the following formula XIX ##STR19## wherein each R^(a), R^(b), R^(c), R^(d), R^(e) and R^(f) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent; and X is the anion portion of an acid having a weak nucleophilic anion.

Further, the present invention pertains to indolonium compounds represented by the following formula XX ##STR20## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f) and R^(g) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent; and X is the anion portion of an acid having a weak nucleophilic anion.

Further, the present invention pertains to indolizinonium compounds represented by the following formula XXI ##STR21## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f) and R^(g) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent; and X is the anion portion of an acid having a weak nucleophilic anion.

Further, the present invention pertains to phenazinonium compounds represented by the following formula XXII ##STR22## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f), R^(g) and R^(h) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent; and X is the anion portion of an acid having a weak nucleophilic anion.

Further, the present invention pertains to phenarsazinonium compounds represented by the following formula XXIII ##STR23## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f), R^(g) and R^(h) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent; and X is the anion portion of an acid having a weak nucleophilic anion.

Further, the present invention pertains to phenothiazinonium compounds represented by the following formula XXIV ##STR24## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f), R^(g), R^(h) and R^(i) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent; and X is the anion portion of an acid having a weak nucleophilic anion.

Further, the present invention pertains to pyrrolinonium compounds represented by the following formula XXV ##STR25## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f) and R^(g) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent; and X is the anion portion of an acid having a weak nucleophilic anion.

Further, the present invention pertains to indolinonium compounds represented by the following formula XVI ##STR26## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f), R^(g), R^(h) and R^(i) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent; and X is the anion portion of an acid having a weak nucleophilic anion.

Further, the present invention pertains to piperidinonium compounds represented by the following formula XVII ##STR27## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f), R^(g), R^(h), R^(i), R^(j) and R^(k) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent; and X is the anion portion of an acid having a weak nucleophilic anion.

Further, the present invention pertains to piperazinonium compounds represented by the following formula XXVIII ##STR28## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f), R^(g), R^(h), R^(i) and R^(j) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent; and X is the anion portion of an acid having a weak nucleophilic anion.

The term hydrocarbyl as employed herein refers to a monovalent aliphatic hydrocarbon group such as alkyl, cycloalkyl, alkenyl and similar hydrocarbon groups.

The term weak-nucleophilic as employed herein means that the material has a nucleophilicity value "n" from about zero to about 2.5 as described by C. G. Swain and C. B. Scott in J. Am. Chem. Soc., Vol. 75, p. 141 (1953) which is incorporated herein by reference.

The term relatively strong-nucleophilic as employed herein means that the material has a nucleophilicity value "n" of 2.5 or greater as described by C. G. Swain and C. B. Scott in J. Am. Chem. Soc., Vol. 75, p. 141 (1953) which is incorporated herein by reference.

DETAILED DESCRIPTION OF THE INVENTION

The latent catalysts of the present invention are prepared by simply mixing the onium, amine or nitrogen-containing heterocyclic compound with the acid having a weak-nucleophilic anion in the desired proportions and stirring to insure intimate contact. The contact can be conducted at temperatures of from about 0° C. to about 100° C., preferably from about 20° C. to about 60° C. for a time sufficient to complete any reaction which occurs. The time depends upon the temperature, but usually from about 1 to about 120, preferably from about 5 to about 60 minutes is sufficient.

The components from which the catalysts are prepared are mixed in proportions which provide from about 0.6 to about 1.4, suitably from about 0.75 to about 1.12, more suitably from about 0.85 to about 1.12, most suitably from about 0.93 to about 1.1, moles of acid per mole of heterocyclic nitrogen-containing compound. When the amount of acid is less than about 0.6 mole per mole of imidazole the catalyst is less latent and begins to approach the reactivity of the original imidazole prior to reaction with the acid. When the amount of acid is more than about 1.4 moles per mole of imidazole the catalyst becomes less latent to the point that at a ratio of about 1.5:1 the catalyst becomes an accelerator as compared to the original onium, amine or nitrogen-containing compound prior to reaction with the acid.

The latent catalysts of the present invention are useful to catalyze the reaction between vicinal epoxide-containing compounds and phenolic hydroxyl-containing compounds.

The catalysts can be employed in amounts sufficient to catalyze the reaction between the vicinal epoxide-containing compounds and the phenolic hydroxyl-containing compounds when heated to a temperature of at least about 100° C. In most instances, the quantity of catalyst is from about 0.05 to about 50, suitably from about 0.1 to about 30, more suitably from about 0.5 to about 20, most suitably from about 1 to about 10 millimoles of catalyst per epoxide equivalent.

Suitable heterocyclic secondary and tertiary amines or nitrogen-containing compounds which can be employed herein include, for example, imidazoles, imidazolidines, imidazolines, oxazoles, pyrroles, thiazoles, pyridines, pyrazines, morpholines, pyridazine, pyrimidine, pyrrolidines, pyrazoles, quinoxalines, quinazolines, phthalozines, quinolines, purines, indazoles, indoles, indolazines, phenazines, phenarsines, phenothiazines, pyrrolines, indolines, piperidines, piperazines, or any combination thereof and the like.

Suitable imidazole compounds which can be employed herein include, for example, those represented by the following formula A ##STR29## wherein each R^(a), R^(b), R^(c) and R^(d) is independently hydrogen or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen substituent, or R^(b) and R^(c) can combine to form a 5 or 6 membered ring with the carbon and nitrogen atoms from the imidazole ring to which they are attached or R^(c) and R^(d) can combine to form a 5 or 6 membered ring with the two carbon atoms from the imidazole ring to which they are attached. Particularly suitable imidazole compounds include, for example, 2-methylimidazole, 2-ethylimidazole, 2-propylimidazole, 2-butylimidazole, 2-pentylimidazole, 2-hexylimidazole, 2-cyclohexylimidazole, 2-phenylimidazole, 2-nonylimidazole, 2-undecylimidazole, 2-heptadecylimidazole, 2-ethyl-4-methylimidazole, 2-phenyl-4-methylimidazole, 1-benzylimidazole, 1-ethyl-2-methylbenzimidazole, 2-methyl-5,6-benzimidazole, 1-vinylimidazole, 1-allyl-2-methylimidazole, or any combination thereof and the like. Suitable imidazoles wherein one or more of the R^(a), R^(b), R^(c), or R^(d) group contain oxygen, sulfur, cyano or halogen substituents include, for example, 1-(2-hydroxypropyl)-2-methylimidazole, 2-phenyl-4,5-dimethylolimidazole, 2-phenyl-4-methyl-5-hydroxymethylimidazole, 2-chloromethylbenzimidazole, 2-hydroxybenzimidazole, or any combination thereof and the like. Most particularly suitable are 2-methylimidazole, 2-ethyl-4-methylimidazole, 1,2-dimethylimidazole and 2-phenylimidazole.

Suitable pyrazole compounds which can be employed herein include, for example, those represented by the following formula B ##STR30## wherein each R^(a), R^(b), R^(c) and R^(d) is independently hydrogen or a hydrocarbyl group having suitable from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen substituent, or R^(b) and R^(c) can combine to form a 5 or 6 membered ring with the carbon and nitrogen atoms from the pyrazole ring to which they are attached or R^(c) and R^(d) can combine to form a 5 or 6 membered ring with the two carbon atoms from the pyrazole ring to which they are attached. Particle suitable pyrazole compounds include, for example, pyrazole, 1-methylpyrazole, 3-methylpyrazole, 4-butylpyrazole, 1-methyl-3-propylpyrazole, 3-ethyl-5-methylpyrazole, 1-(3-hydroxypropyl)pyrazole, 5-phenylpyrazole, 5-benzylpyrazole, 1-phenyl-3-methylpyrazole, 1-cyanopyrazole, 3-chloropyrazole, 4-bromo-1-methyl-pyrazole, or any combination thereof and the like.

Suitable oxazole compounds which can be employed herein include, for example, those represented by the following formula C ##STR31## wherein each R^(a), R^(b) and R^(c) is independently hydrogen or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent. Particularly suitable oxazole compounds include, for example, oxazole, 3-methyloxazole, 2-methyloxazole, 4-butyloxazole, 3-methyl-5-propyloxazole, 2-ethyl-4-methyloxazole, 3-(3-hydroxypropyl)oxazole, 4-phenyloxazole, 3-benzyloxazole, 2-phenyl-3-methyloxazole, 2-cyanooxazole, 4-chlorooxazole, 4-bromo-3-methyloxazole, or any combination thereof and the like.

Suitable imidazolidine compounds which can be employed herein include, for example, those represented by the following formula D ##STR32## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f), R^(g) and R^(h) is independently hydrogen or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent. Particularly suitable imidazolidine compounds include, for example, imidazolidine, 1-methylimidazolidine, 2-methylimidazolidine, 4-butylimidazolidine, 1-methyl-3-propylimidazolidine, 1-ethyl-4-methyl-imidazolidine, 1-(3-hydroxypropyl)imidazolidine, 2-phenylimidazolidine, 1-benzylimidazolidine, 2-phenyl-1-methylimidazolidine, 4-cyanoimidazolidine, 4-chloroimidazolidine, 4-bromo-1-methylimidazolidine, or any combination thereof and the like.

Suitable imidazoline compounds which can be employed herein include, for example, those represented by the following formula E ##STR33## wherein each R^(a), R^(b), R^(c), R^(d), R^(e) and R^(f) is independently hydrogen or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent. Particularly suitable imidazoline compounds include, for example, imidazoline, 1-methylimidazolidine, 2-methylimidazolidine, 4-butylimidazolidine, 1-methyl-2-propylimidazolidine, 1-ethyl-4-methylimidazolidine, 1-(3-hydroxypropyl)imidazolidine, 2-phenylimidazolidine, 1-benzylimidazolidine, 2-phenyl-1-methylimidazolidine, 4-cyanoimidazolidine, 5-chloroimidazolidine, 5-bromo-1-methylimidazolidine, or any combination thereof and the like.

Suitable thiazole compounds which can be employed herein include, for example, those represented by the following formula F ##STR34## wherein each R^(a), R^(b) and R^(c) is independently hydrogen or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent. Particularly suitable thiazole compounds include, for example, thiazole, 2-methylthiazole, 3-methylthiazole, 4-butylthiazole, 2-methyl-3-propylthiazole, 3-ethyl-5-methylthiazole, 3-(3-hydroxypropyl)thiazole, 2-phenylthiazole, 3-benzylthiazole, 4-phenyl-3-methylthiazole, 2-cyanothiazole, 5-chlorothiazole, 5-bromo-3-methylthiazole, or any combination thereof and the like.

Suitable pyrrole compounds which can be employed herein include, for example, those represented by the following formula G ##STR35## wherein each R^(a), R^(b), R^(c), R^(d) and R^(e) is independently hydrogen or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent. Particularly suitable pyrrole compounds include, for example, pyrrole, 1-methylpyrrole, 2-methylpyrrole, 3-butylpyrrole, 1-methyl-2-propylpyrrole, 2-ethyl-3-methylpyrrole, 1-(3-hydroxypropyl)pyrrole, 2-phenylpyrrole, 1-benzylpyrrole, 2-phenyl-1-methylpyrrole, 3-cyanopyrrole, 3-chloropyrrole, 2-bromo-1-methylpyrrole, or any combination thereof and the like.

Suitable pyridine compounds which can be employed herein include, for example, those represented by the following formula H ##STR36## wherein each R^(a), R^(b), R^(c), R^(d) and R^(e) is independently hydrogen or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent with the proviso that at least one of the R^(a), R^(b), R^(c), R^(d) or R^(e) groups is other than hydrogen. Particularly suitable pyridine compounds include, for example, 2-methylpyridine, 3-methylpyridine, 4-butylpyridine, 2-methyl-3-propylpyridine, 3-ethyl-4-methylpyridine, 4-(3-hydroxypropyl)pyridine, 2-phenylpyridine, 3-cyanopyridine, 2-chloropyridine, 3-bromo-5-methylpyridine, combinations thereof and the like.

Suitable pyrazine compounds which can be employed herein include, for example, those represented by the following Formula 1 ##STR37## wherein each R^(a), R^(b), R^(c) and R^(d) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent. Particularly suitable pyrazine compounds include, for example, pyrazine, 2-methylpyrazine, 3-methylpyrazine, 2-butylpyrazine, 2-methyl-5-propyl-pyrazine, 2-ethyl-6-methylpyrazine, 2-(3-hydroxy-propyl)pyrazine, 2-phenylpyrazine, 2-benzylpyrazine, 2-phenyl-3-methylpyrazine, 2-cyanopyrazine, 2-chloropyrazine, 2-bromo-5-methylpyrazine, or any combination thereof and the like.

Suitable pyridazine compounds which can be employed herein include, for example, those represented by the following formula J ##STR38## wherein each R^(a), R^(b), R^(c), and R^(d) is independently hydrogen or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent. Particularly suitable pyridazine compounds include, for example, pyradazine, 3-methylpyridazine, 4-methylpyridazine, 3-butylpyridazine, 3-methyl-4-propylpyridazine, 3-ethyl-6-methylpyridazine, 4-(3-hydroxypropyl)pyridazine, 3-phenylpyridazine, 4-benzylpyridazine, 4-phenyl-5-methylpyridazine, 4-cyanopyridazine, 4-chloropyridazine, 3-bromo-5-methylpyridazine, or any combination thereof and the like.

Suitable pyrrolidine compounds which can be employed herein include, for example, those represented by the following formula K ##STR39## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f), R^(g), R^(h) and R^(i) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent. Particularly suitable pyrrolidine compounds include, for example, pyrrolidine, 1-methylpyrrolidine, 4-phenylpyrrolidine, 2-methylpyrrolidine, 3-methylpyrrolidine, 1-butylpyrrolidine, 1-methyl-2-propylpyrrolidine, 3-ethyl-4-methylpyrrolidine, 2-(3-hydroxypropyl)pyrrolidine, 1-phenyl-2-methylpyrrolidine, 2-cyanopyrrolidine, 2-chloropyrrolidine, 2-bromo-1-methylpyrrolidine, or any combination thereof and the like.

Suitable morpholine compounds which can be employed herein include, for example, those represented by the following formula L ##STR40## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f), R^(g), R^(h) and R^(i) is independently hydrogen or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, halogen or the like substituent. Particularly suitable morpholine compounds include, for example, morpholine, 4-methylmorpholine, 3-methylmorpholine, 4-butylmorpholine, 4-methyl-3-propylmorpholine, 2-ethyl-3-methylmorpholine, 4-(3-hydroxypropyl)morpholine, 2-phenylmorpholine, 4-benzylmorpholine, 3-phenyl-1-methylmorpholine, 3-cyanomorpholine, 3-chloromorpholine, 3-bromo-4-methylmorpholine, combinations thereof and the like.

Suitable pyrimidine compounds which can be employed herein include, for example, those represented by the following formula M ##STR41## wherein each R^(a), R^(b) and R^(c) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent. Particularly suitable pyrimidine compounds which can be employed herein include, for example, pyrimidine, 2-methylpyrimidine, 4-methyl-pyrimidine, 2-butylpyrimidine, 2-methyl-4-propyl-pyrimidine, 4-ethyl-5-methylpyrimidine, 2-(3-hydroxypropyl)pyrimidine, 2-phenylpyrimidine, 2-benzylpyrimidine, 4-phenyl-2-methylpyrimidine, 4-cyanopyrimidine, 2-chloropyrimidine, 4-bromo-2-methylpyrimidine, or any combination thereof and the like.

Suitable quinoxaline compounds which can be employed herein include, for example, those represented by the following formula N ##STR42## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), and R^(f) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen substituent. Particularly suitable quinoxaline compounds include, for example, quinoxaline, 2-methylquinoxaline, 5-methylquinoxaline, 2-butylquinoxaline, 2-methyl-3-propylquinoxaline, 5-ethyl-6-methylquinoxaline, 2-(3-hydroxypropyl)quinoxaline, 2-phenylquinoxaline, 5-benzylquinoxaline, 2-phenyl-5-methylquinoxaline, 2-cyanoquinoxaline, 2-chloroquinoxaline, 2-bromo-5-methylquinoxaline, or any combination thereof and the like.

Suitable quinazoline compounds which can be employed herein include, for example, those represented by the following formula O ##STR43## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), and R^(f) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent. Suitable quinazoline compounds include, for example, quinazoline, 2-methylquinazoline, 4-methylquinazoline, 2-butylquinazoline, 2-methyl-4-propylquinazoline, 5-ethyl-6-methyl-quinazoline, 2-(3-hydroxypropyl)quinazoline, 2-phenylquinazoline, 2-benzylquinazoline, 2-phenyl-4-methylquinazoline, 4-cyanoquinazoline, 4-chloroquinazoline, 2-bromo-4-methylquinazoline, or any combination thereof and the like.

Suitable phthalazine compounds which can be employed herein include, for example, those represented by the following formula P ##STR44## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), and R^(f) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent. Suitable phthalazine compounds include, for example, phthalazine, 1-methylphthalazine, 6-methylphthalazine, 1-butylphthalazine, 1-methyl-4-propylphthalazine, 1-ethyl-6-methyl-phthalazine, 1-(3-hydroxypropyl)phthalazine, 5-phenylphthalazine, 1-benzylphthalazine, 1-phenyl-4-methylphthalazine, 1-cyanophthalazine, 1-chlorophthalazine, 1-bromo-4-methylphthalazine, or any combination thereof and the like.

Suitable quinoline compounds which can be employed herein include, for example, those represented by the following formula Q ##STR45## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f) and R^(g) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent. Suitable quinoline compounds which can be employed herein include, for example, quinoline, 2-methylquinoline, 3-methylquinoline, 4-butylquinoline, 5-methyl-2-propylquinoline, 2-ethyl-3-methylquinoline, 3-(3-hydroxypropyl)quinoline, 3-phenylquinoline, 4-benzylquinoline, 3-phenyl-3-methylquinoline, 3-cyanoquinoline, 4-chloroquinoline, 2-bromo-3-methylquinoline, or any combination thereof and the like.

Suitable purine compounds which can be employed herein include, for example, those represented by the following formula R ##STR46## wherein each R^(a), R^(b), R^(c) and R^(d) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent. Suitable purine compounds include, for example, purine, 2-methylpurine, 8-methylpurine, 6-butylpurine, 2-methyl-8-propylpurine, 6-ethyl-8-methylpurine, 8-(3-hydroxypropyl)purine, 2-phenylpurine, 2-benzylpurine, 6-phenyl-2-methyl-purine, 8-cyanopurine, 2-chloropurine, 8-bromo-2-methylpurine, or any combination thereof and the like.

Suitable indazole compounds which can be employed herein include, for example, those represented by the following formula S ##STR47## wherein each R^(a), R^(b), R^(c), R^(d), R^(e) and R^(f) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent. Suitable indazole compounds include, for example, indazole, 1-methylindazole, 3-methylindazole, 1-butylindazole, 1-methyl-3-propylindazole, 1-ethyl-5-methylindazole, 3-(3-hydroxypropyl)indazole, 3-phenylindazole, 6-benzylindazole, 6-phenyl-1-methylindazole, 3-cyanoindazole, 5-chloroindazole, 3-bromo-1-methylindazole, or any combination thereof and the like.

Suitable indole compounds which can be employed herein include, for example, those represented by the following formula T ##STR48## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f) and R^(g) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent. Suitable indole compounds which can be employed herein include, for example, indole, 1-methylindole, 2-methylindole, 3-butylindole, 1-methyl-2-propylindole, 2-ethyl-3-methylindole, 1-(3-hydroxypropyl)indole, 2-phenylindole, 1-benzylindole, 2-phenyl-1-methylindole, 2-cyanoindole, 5-chloroindole, 3-bromo-1-methylindole, or any combination thereof and the like.

Suitable indolizine compounds which can be employed herein include, for example, those represented by the following formula U ##STR49## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f) and R^(g) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent. Suitable indolizine compounds include, for example, indolazine, 1-methylindolizine, 2-methylindolizine, 3-butylindolizine, 5-methyl-1-propylindolizine, 2-ethyl-1-methylindolizine, 6-(3-hydroxypropyl)indolizine, 3-phenylindolizine, 7-benzylindolizine, 2-phenyl-3-methylindolizine, 5-cyanoindolizine, 7-chloroindolizine, 3-bromo-5-methylindolizine, or any combination thereof and the like.

Suitable phenazine compounds which can be employed herein include, for example, those represented by the following formula V ##STR50## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f), R^(g) and R^(h) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent. Suitable phenazine compounds which can be employed herein include, for example, phenazine, 1-methylphenazine, 2-methylphenazine, 2-butylphenazine, 1-methyl-7-propylphenazine, 1-ethyl-4-methylphenazine, 2-(3-hydroxypropyl)phenazine, 1-phenylphenazine, 1-benzylphenazine, 1-phenyl-7-methylphenazine, 2-cyanophenazine, 1-chlorophenazine, 1-bromo-2-methylphenazine, or any combination thereof and the like.

Suitable phenarsazine compounds which can be employed herein include, for example, those represented by the following formula W ##STR51## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f), R^(g) and R^(h) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent. Suitable phenarsazine compounds which can be employed herein include, for example, phenarsazine, 1-methylphenarsazine, 2-methylphenarsazine, 4-butylphenarsazine, 1-methyl-6-propylphenarsazine, 2-ethyl-3-methylphenarsazine, 1-(3-hydroxypropyl)phenarsazine, 4-phenylphenarsazine, 3-benzylphenarsazine, 2-phenyl-7-methylphenarsazine, 3-cyanophenarsazine, 1-chlorophenarsazine, 1-bromo-8-methylphenarsazine, or any combination thereof and the like.

Suitable phenothiazine compounds which can be employed herein include, for example, those represented by the following formula X ##STR52## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f), R^(g), R^(h) and R^(i) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent. Suitable phenothiazine compounds include, for example, phenothiazine, 10-methylphenothiazine, 1-methylphenothiazine, 2-butylphenothiazine, 10-methyl-4-propylphenothiazine, 2-ethyl-3-methyl-phenothiazine, 4-(3-hydroxypropyl)phenothiazine, 10-phenylphenothiazine, 1-benzylphenothiazine, 10-phenyl-4-methylphenothiazine, 7-cyanophenothiazine, 4-chlorophenothiazine, 4-bromo-10-methylphenothiazine, or any combination thereof and the like.

Suitable pyrroline compounds which can be employed herein include, for example, those represented by the following formula Y ##STR53## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f) and R^(g) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent. Suitable pyrroline compounds include, for example, pyrroline, 2-methylpyrroline, 4-methyl-pyrroline, 5-butylpyrroline, 5-methyl-1-propyl-pyrroline, 1-ethyl-3-methylpyrroline, 1-(3-hydroxy-propyl)pyrroline, 5-phenylpyrroline, 1-benzylpyrroline, 1-phenyl-4-methylpyrroline, 3-cyanopyrroline, 5-chloropyrroline, 2-bromo-1-methylpyrroline, or any combination thereof and the like.

Suitable indoline compounds which can be employed herein include, for example, those represented by the following formula Z ##STR54## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f), R^(g), R^(h) and ig is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogenor the like substituent. Particularly suitable indoline compounds include, for example, indoline, 1-methylindoline, 2-methylindoline, 3-butylindoline, 1-methyl-2-propyl-indoline, 2-ethyl-2-methylindoline, 1-(3-hydroxy-propyl)indoline, 1-phenylindoline, 1-benzylindoline, 1-phenyl-2-methylindoline, 5-cyanoindoline, 7-chloroindoline, 5-bromo-1-methylindoline, or any combination thereof and the like.

Suitable piperidine compounds which can be employed herein include, for example, those represented by the following formula AA ##STR55## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f), R^(g), R^(h), R^(i), R^(j) and R^(k) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent. Suitable piperidine compounds which can be employed herein include, for example, piperidine, 1-methylpiperidine, 2-methylpiperidine, 3-butyl-piperidine, 1-methyl-2-propylpiperidine, 2-ethyl-4-methylpiperidine, 1-(3-hydroxypropyl)piperidine, 1-phenylpiperidine, 1-benzylpiperidine, 1-phenyl-2-methylpiperidine, 4-cyanopiperidine, 3-chloropiperidine, 4-bromo-1-methylpiperidine, or any combination thereof and the like.

Suitable piperazine compounds which can be employed herein include, for example, those represented by the following formula BB ##STR56## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f), R^(g), R^(h), R^(i) and R^(j) is independently hydrogen, or a hydrocarbyl group having suitably from 1 to about 18, more suitably from 1 to about 9, carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen or the like substituent. Particularly suitable piperazine compounds which can be employed herein include, for example, piperazine, 1-methylpiperazine, 2-methylpiperazine, 3-butylpiperazine, 1-methyl-4-propylpiperazine, 1-ethyl-3-methylpiperazine, 1(3-hydroxypropyl)-piperazine, 2-phenylpiperazine, 1-benzylpiperazine, 1-methyl-3-phenylpiperazine, 2-cyanopiperazine, 2-chloropiperazine, 1,4-dimethyl-2-bromopiperazine, or any combination thereof and the like.

Suitable boron containing acids include, for example, those represented by the formula BR₃ R' wherein each R is independently hydrogen or an aliphatic, cycloaliphatic or aromatic hydrocarbon or substituted hydrocarbon group having suitably from 1 to about 12, more suitably from about 1 to about 6, most suitably from about 1 to about 4, carbon atoms; and R' is a group other than a hydrocarbyl group such as, for example, a hydrocarbonoxy, hydrocarbonamino, a hydrocarbonphosphino, or a halogen atom, particularly fluorine, chlorine or bromine. The term hydrocarbon means any aliphatic, cycloaliphatic, aromatic, arylsubstituted aliphatic, alkyl substituted aromatic groups.

Fluoboric acid is sometimes referred to as fluoroboric acid or hydrogen tetrafluoroborate. Any of these expressions refer to the chemical represented by the formula HBF₄.

Suitable such acids containing boron include, for example, hydrogen fluorotriphenylborate, hydrogen chlorotriphenylborate, hydrogen fluorotributylborate, hydrogen phenyltrifluoborate. Most particularly suitable such acid is fluoboric acid.

The term hydrocarbonoxy means that a hydrocarbyl group as previously defined has an oxygen atom between it and the boron atom. Likewise, the term hydrocarbonamino and hydrocarbonphosphino mean that there is an amine or phosphine group between the hydrocarbyl group and the boron atom.

Particularly suitable inorganic acids which are free of boron, said acid having a weak nucleophilic anion include, for example, fluoarsenic acid, fluoantimonic acid, fluophosphoric acid, chloroboric acid, chloroarsenic acid, chloroantimonic acid, chlorophosphoric acid, perchloric acid, chloric acid, bromic acid, iodic acid and or any combination thereof and the like.

Suitable metal salts of such boron-free or boron containing inorganic acids having a weak nucleophilic anion include, for example, salts of the metals of Groups I and II of the Periodic Table of the Elements published by Sargent-Welch Scientific Company as catalog number S-18806. Particularly such salts include, for example, the sodium, potassium, lithium, calcium, barium magnesium and silver salts of such inorganic acids.

Suitable compounds having an average of more than one epoxide group per molecule which can be employed herein include, epoxy resins such as, for example, the glycidyl ethers of polyhydric phenols such as dihydroxy phenols, biphenols, bisphenols, halogenated bisphenols, alkylated bisphenols, trisphenols, phenol-aldehyde novolac resins, substituted phenol-aldehyde novolac resins, phenol-hydrocarbon resins, substituted phenol-hydrocarbon resins, or any combination thereof and the like. Suitable such epoxy resins include, for example, those represented by the following formulas XXIX-XXXII ##STR57## wherein each A is independently a divalent hydrocarbyl group having from 1 to about 9, preferably from 1 to about 4, carbon atoms, --O--, --S--, --S--S--, --SO--, --SO₂ --, or --CO--; each A' is independently a divalent hydrocarbyl group having from 1 to about 9, preferably from 1 to about 4 carbon atoms; Q is a hydrocarbyl group having from 1 to about 10 carbon atoms; Q' is hydrogen or an alkyl group having from 1 to about 4 carbon atoms; each R is independently hydrogen or an alkyl group having from 1 to about 4 carbon atoms; each X is independently hydrogen, bromine, chlorine, or a hydrocarbyl group having from 1 to about 9, preferably from 1 to about 4 carbon atoms; m has an average value from zero to about 12, preferably from about zero to about 9, most preferably from about 0.03 to about 3; m' has a value from about 0.01 to about 10, preferably from about 0.2 to about 8, more preferably from about 0.5 to about 6; n has a value of zero or 1; and n' has an average value of from zero to about 10, preferably from zero to about 5, most preferably from about 0.03 to about 3. Also suitable are the oligomers of the epoxy resin represented by formula XXXII.

Particularly suitable such epoxy resins include, for example, the diglycidyl ethers of resorcinol, catechol, hydroquinone, biphenol, bisphenol A, bisphenol K, tetrabromobisphenol A, phenol-formaldehyde novolac resins, alkyl substituted phenol-formaldehyde resins, phenol-hydroxybenzaldehyde resins, cresol-hydroxybenzaldehyde resins, dicyclopentadienephenol resins, tetramethylbiphenol, tetramethyltetrabromobiphenol, tetramethyltribromobiphenol, tetrachlorobisphenol A, or any combination thereof and the like.

Also suitable as the epoxide compound which can be employed in the present invention include those partially advanced epoxy resins disclosed by Bertram et al. in U.S. Pat. No. 4,594,291 which is incorporated herein by reference.

Also suitable as the epoxide compound are the glycidyl ethers of compounds having an average of more than one aliphatic hydroxyl group per molecule such as, for example, aliphatic diols, polyether diols, polyether triols, polyether tetrols, or any combination thereof and the like. Also suitable are the alkylene oxide adducts of compounds containing an average of more than one aromatic hydroxyl group per molecule such as, for example, the ethylene oxide, propylene oxide, or butylene oxide adducts of dihydroxy phenols, biphenols, bisphenols, halogenated bisphenols, alkylated bisphenols, trisphenols, phenol-aldehyde novolac resins, halogenated phenol-aldehyde novolac resins, alkylated phenol-aldehyde novolac resins, hydrocarbon-phenol resins, hydrocarbon-halogenated phenol resins, or hydrocarbon-alkylated phenol resins, or any combination thereof and the like.

Suitable aromatic hydroxyl containing compounds which can be employed herein include, for example, compounds having an average of more than one phenolic hydroxyl group per molecule. Suitable such compounds include, for example, dihydroxy phenols, biphenols, bisphenols, halogenated bisphenols, alkylated bisphenols, trisphenols, phenol-aldehyde resins, halogenated phenol-aldehyde novolac resins, alkylated phenol-aldehyde novolac resins, phenol-hydroxybenzaldehyde resins, alkylated phenol-hydroxybenzaldehyde resins, hydrocarbon-phenol resins, hydrocarbon-halogenated phenol resins, hydrocarbon-alkylated phenol resins, or any combination thereof and the like. Particularly suitable aromatic hydroxy-containing compounds include, for example, those represented by the following formulas XXXII-XXXV ##STR58## wherein A, A', Q, Q' X, n and m are as defined above in formulas XII-XVI. Particularly suitable aromatic hydroxyl-containing materials include, for example, biphenol, bisphenol A, bisphenol K, tetrabromobisphenol A, tetrabromobisphenol K, resorcinol, phenol-aldehyde novolac resins, cresol-aldehyde novolac resins, phenol-hydroxybenzaldehyde resins, cresol-hydroxybenzaldehyde resins, tetramethylbiphenol, tetramethyltribromobiphenol, tetramethyltetrabromobiphenol, tetrachorobisphenol A, or any combination thereof and the like. Also suitable are the oligomers of the multifunctional phenolic compounds represented by the formula XXXV.

These and other suitable aromatic hydroxyl-containing compounds are disclosed in U.S. Pat. No. 4,594,291 issued Jun. 10, 1986 by Bertram et al which is incorporated herein by reference.

The aromatic hydroxyl-containing compounds are employed in amounts which provide a ratio of aromatic hydroxyl groups to epoxy groups suitably from about 0.05:1 to about 20:1, more suitably from about 0.1:1 to about 10:1, most suitably from about 0.2:1 to about 5:1.

The precatalyzed compositions of the present invention can contain, if desired, pigments, fillers, dyes, diluents, solvents, stabilizers, epoxy resin curing agents, or any combination thereof and the like.

Suitable stabilizer materials and curing agents which can be employed herein include, for example, those disclosed in the aforementioned U.S. Pat. No. 4,594,291 by Bertram et al which is incorporated herein by reference.

The compositions of the present invention are useful in the preparation of formulations for use in the preparation of electrical and structural laminates and composites, coatings, castings, moldings, encapsulants and the like. They can be employed in the conventional methods or the newer RTM and RIM techniques.

The following examples are illustrative of the invention but are not to be construed as to limiting the scope thereof in any manner.

EXAMPLE 1 Preparation of 2-Methylimidazolium Fluoborate Complex

A glass flask fitted with a stirrer, thermometer, and reflux condenser is charged with 15.37 grams (0.098 mole) of a 55.9% aqueous solution, by weight, of fluoboric acid. To this stirred solution, 8.2 grams (0.100 mole) of 2-methylimidazole are slowly added during about five minutes. The heat from the reaction warmed the solution to approximately 50° C. as the 2-methylimidazole dissolves. The solution is stirred for an additional 30 minutes as it cools to near ambient temperature. Methanol is then added, 19.98 grams, to dilute the solution to 38.6% solids based on the weight of the 2-methylimidazole and fluoboric acid.

The concentration of the aqueous fluoboric acid was determined by potentiometric titration to the first inflection point with 0.100N potassium hydroxide in methanol. An MCI GT-05 automatic titrator and a combination silver/silver chloride electrode (Curtain Matheson Scientific No. 201-947) were used to measure the pH changes during the course of the titration.

EXAMPLES 2-12 Preparation of 2-Methylimidazolium Fluoborate Complexes

The procedure described in Example 1 is repeated using the same procedure and amount of 2-methylimidazole (2-MI), however the weight of fluoboric acid (55.9% aqueous solution) is varied as shown in Table I. All experiments are diluted with methanol to 38.5% solids based on the combined weights of 2-MI and fluoboric acid. The results are given in Table I.

                  TABLE I                                                          ______________________________________                                         2-METHYLIMIDAZOLE WITH VARYING                                                 RATIOS OF FLUOBORIC ACID                                                                               Moles of                                                             Fluoboric Fluoboric                                                            Acid      Acid Per                                               Example       Solution  Mole of                                                Number        (grams)   2-MI                                                   ______________________________________                                         2             11.71     0.75                                                   3             13.17     0.84                                                   4             13.90     0.89                                                   5             14.63     0.93                                                   1             15.37     0.98                                                   6             16.10     1.03                                                   7             16.83     1.07                                                   8             17.56     1.12                                                   9             17.88     1.14                                                   10            18.35     1.17                                                   11            20.39     1.30                                                   12            21.17     1.35                                                   ______________________________________                                    

EXAMPLE 13 Preparation of 2-Phenylimidazolium Fluoborate

A glass flask fitted with a stirrer, thermometer, and reflux condenser is charged with 15.37 grams (0.098 mole) of a 55.9% aqueous solution, by weight, of fluoboric acid and 29.3 grams of methanol. To this stirred solution, 14.4 grams (0.100 mole) of 2-phenylimidazole (2-PI) are slowly added during about five minutes. The heat from the reaction warms the solution to approximately 50° C. as the 2-phenylimidazole dissolves. The solution is stirred for an additional 30 minutes as it cools to near ambient. The product is a clear solution containing 38.9% by weight of the 2-phenylimidazolium fluoborate adduct/complex.

EXAMPLE 14 Preparation of 4-Methylimidazolium Fluoborate Complex

The procedure of Example 13 is followed using the following reagents:

4.00 g (0.0487 mole) of 4-methylimidazole (4-MI)

7.84 g (0.0500 mole) of fluoboric acid (55.9% aqueous

9.92 g of methanol

The resultant product is a clear solution containing 38,5% by weight of the 4-methylimidazolium fluoborate adduct/complex.

EXAMPLE 15 Preparation of 1,2-Dimethylimidazolium Fluoborate Complex

The procedure of Example 13 is followed using the following reagents:

4.68 g (0.0487 mole) of 1,2-dimethylimidazole (1,2-DMI)

7.84 g (0.0500 mole) of fluoboric acid (55.9% aqueous)

10.95 g of methanol

The resultant product is a clear solution containing 38.6% by weight of the 1,2-dimethylimidazolium fluoborate adduct/complex.

EXAMPLE 16 Preparation of 2-Ethyl-4-Methylimidazolium Fluoborate Complex

The procedure of Example 13 is followed using the following reagents:

5.36 g (0.0487 mole) of 2-ethyl-4-methylimidazole (2-E-4-MI)

7.84 g (0.0500 mole) of fluoboric acid (55.9% aqueous)

11.98 g of methanol

The resultant product is a clear solution containing 38.7% by weight of the 2-ethyl-4-methylimidazolium fluoborate adduct/complex.

EXAMPLE 17 Preparation of 4,5-Diphenylimidazolium Fluoborate Complex

The procedure of Example 13 is followed using the following reagents:

4.00 g (0.0182 mole) of 4,5-diphenylimidazole (4,5-DPI)

2.92 g (0.0166 mole) of fluoboric acid (55.9% aqueous)

7.47 g of methanol

After the above reactants are added together, the mixture is not homogeneous, therefore an additional 35.4 grams of the monomethyl ether of propylene glycol monoacetate is added to give a clear solution containing 11.3% by weight of the 4,5-diphenylimidazolium fluoborate adduct/complex.

EXAMPLE 18-34 Imidazolium Fluoborate Complex Catalyzed Epoxy/Phenolic Systems

The catalysts described in Examples 1-17 are mixed with a 1:1 molar ratio of a diglycidyl ether of bisphenol A having an epoxy equivalent weight of 181.5 (D.E.R.™383 Epoxy Resin commercially available from The Dow Chemical Co.) and bisphenol A (2,2-bis(4,4'-hydroxyphenyl)propane), commercially available from The Dow Chemical Co. as PARABIS™) dissolved in the monomethylether of propylene glycol monoacetate (PMA). The epoxy resin (181.5 grams, 1 equiv.), bisphenol A (114 grams, 1 equiv.) and 73.88 grams of PMA are heated between 80° C. and 100° C. under a nitrogen atmosphere until homogeneous, cooled to ambient temperature and the appropriate amount of catalyst added as described in Table II. Portions of these solutions are then stored at 50° C. and the 25° C. viscosity monitored as shown in Table III.

                  TABLE II                                                         ______________________________________                                         CATALYZED EPOXY/PHENOLIC FORMULATIONS                                          Example              Catalyst Millimoles of                                    or Comp. Catalyst    Solution Catalyst per                                     Expt.    (Ex.        Weight   Equivalent of                                    No.      Number)     (grams)  Epoxide                                          ______________________________________                                         18       1           3.92     9.0                                              19       2           3.47     9.0                                              20       3           3.67     9.0                                              21       4           3.75     9.0                                              22       5           3.82     9.0                                              23       6           4.02     9.0                                              24       7           4.12     9.0                                              25       8           4.22     9.0                                              26       9           4.24     9.0                                               27*     10          4.31     9.0                                               28*     11          4.59     9.0                                               29*     12          4.67     9.0                                              30       13          5.31     9.0                                              31       14          4.00     9.0                                              32       15          4.33     9.0                                              33       16          4.65     9.0                                              34       17          24.65    9.0                                              C.E..sup.a A*                                                                           No Cat.     --       --                                               C.E..sup.a B*                                                                           2-MI.sup.b  1.85     9.0                                              C.E..sup.a C*                                                                           2-PI.sup.c  3.24     9.0                                              C.E..sup.a D*                                                                           1,2-DMI.sup.d                                                                              2.16     9.0                                              ______________________________________                                          *Not an example of the present invention.                                      .sup.a C.E. is Comparative Experiment.                                         .sup.b 2methyl imidazole alone as catalyst. (40% by wt. solution in            methanol)                                                                      .sup.c 2phenylimidazole alone as catalyst. (40% by wt. solution in             methanol)                                                                      .sup. d 1,2dimethylimidazole alone as catalyst. (40% by wt. solution in        methanol)                                                                

                                      TABLE III                                    __________________________________________________________________________     50° C. Stability Study                                                           Mol.                                                                           of                                                                             HBF.sub.4                                                             Nitrogen per                             % of Control                          or       Mol.                            Viscosity.sup.d                       Ex.                                                                               Phosporus                                                                            of N-                                                                              Viscosity                       After                             or Cont. Cont.                                                                              Initial After 1 Day                                                                              After 14 Days                                                                            After                                                                              14                                CE.sup.a                                                                          Compound                                                                             Cmpd.                                                                              Cps Pa · s                                                                    Cps   Pa · s                                                                    Cps   Pa · s                                                                    1 Day                                                                              Days                              __________________________________________________________________________     18 2-MI  0.98                                                                               885 .885                                                                               1054  1.054                                                                              1385  1.385                                                                              10.5                                                                               <0.7                              19 2-MI  0.75                                                                               914 .914                                                                               1361  1.361                                                                              N.D.  N.D.                                                                               13.6                                                                               N.D.                              20 2-MI  0.84                                                                               904 .904                                                                               1211  1.211                                                                              24150 24.150                                                                             12.1                                                                               <12.1                             21 2-MI  0.89                                                                               891 .891                                                                               1144  1.144                                                                              8890  8.890                                                                              11.4                                                                               <4.4                              22 2-MI  0.93                                                                               887 .887                                                                               1085  1.085                                                                              3120  3.120                                                                              10.8                                                                               <1.6                              23 2-MI  1.03                                                                               877 .887                                                                               1032  1.032                                                                              1251  1.251                                                                              10.3                                                                               <0.6                              24 2-MI  1.07                                                                               840 .840                                                                                957   .957                                                                              1168  1.168                                                                               9.6                                                                               <0.6                              25 2-MI  1.12                                                                               836 .836                                                                                987   .987                                                                              2919  2.919                                                                               9.9                                                                               <1.5                               26*                                                                              2-MI  1.14                                                                               1360                                                                               1.360                                                                              >200,000.sup.b                                                                       >200.sup.b                                                                         N.D.  N.D.                                                                               N/A N.D.                               27*                                                                              2-MI  1.17                                                                               1243                                                                               1.243                                                                              >200,000.sup.b                                                                       >200.sup.b                                                                         --    --  >1999                                                                              --                                 28*                                                                              2-MI  1.30                                                                               1715                                                                               1.715                                                                              >200,000.sup.b                                                                       >200.sup.b                                                                         --    --  >1999                                                                              --                                 29*                                                                              2-MI  1.35                                                                               2000.sup.e                                                                         2.000.sup.e                                                                        >200,000.sup.b                                                                       >200.sup.b                                                                         --    --  >1999                                                                              --                                30 2-PI  0.98                                                                               820 .820                                                                                980   .980                                                                              1404  1.404                                                                               7.0                                                                               --                                31 4-MI  1.02                                                                               867 .867                                                                               1020  1.020                                                                              1179  1.179                                                                              --  --                                32 1,2-DMI                                                                              1.03                                                                               836 .836                                                                                932   .932                                                                              1260  1.260                                                                               7.6                                                                               <0.6                              33 2-E-4-MI                                                                             1.02                                                                               828 .828                                                                                897   .897                                                                              1140  1.140                                                                              --  --                                34 4,5-DPI.sup.                                                                         1.03                                                                               417 .417                                                                                576   .576                                                                               742   .742                                                                              --  --                                A* None  0   1079                                                                               1.079                                                                              1081  1.081                                                                              1256  1.256                                                                              --  --                                B*  2-MI.sup.c                                                                          0   1006                                                                               1.006                                                                              .sup. 10.006 6                                                                           >200,000.sup.b                                                                       >200.sup.b                                                                         --  --                                C* 2-PI.sup.c                                                                           0   1042                                                                               1.042                                                                              .sup. 14.000 0                                                                           --    --  --  --                                D*   1,2-DMI.sup.c                                                                      0   1171                                                                               1.171                                                                              .sup. 12,228 8                                                                           >200,000.sup.b                                                                       >200.sup.b                                                                         --  --                                __________________________________________________________________________      FOOTNOTES TO TABLE III                                                         *Not an example of the present invention.                                      .sup.a Examples are designated by numerals whereas comparative experiment      are designated by letters.                                                     .sup.b Viscosity of the composition exceeded the test method (>200,000         cps).                                                                          .sup.c 2Methylimidazole, 2phenylimidazole and 1,2dimethylimidazole             employed alone as catalyst.                                                    .sup.d This value is determined by dividing the viscosity obtained in the      appropriate example by the viscosity of a comparable formulation employin      as the catalyst the same nitrogen or phosphorus compound except that it        has not been reacted with HBF.sub.4.                                           .sup.e The viscosity is increasing during measurement.                   

EXAMPLE 35 Coating Properties with 2-Methyl-Imidazolium Fluoborate Catalyst

The formulations described in Example 18 and Comparative Experiment B are applied to 24 gauge Bonderite™ R 90 treated steel panels available from Parker Chemical Co. via a wire wound steel draw down rod. The coatings are allowed to air dry for approximately five minutes, then placed in a forced air oven preset at 200° C. for 10 minutes. The panels are removed from the oven, cooled to ambient temperature, and tested as shown in Table IV.

Resistance to methyl ethyl ketone is determined in the following manner. The ball end of a ball peen hammer weighing about 1.5 lbs. (0.6804 kg) is covered with 8 plys of gauze, which is then wet with methyl ethyl ketone (MEK). The ball end of the hammer is applied to the coated surface and rubbed back and forth until the coating is removed. One double rub corresponds to one back and forth movement of the hammer. The number of double rubs required to remove or mar the coating is recorded.

Flexibility is determined by a 1/8 in. wedge test using a Gardner Falling Dart Impact Tester (available from the Gardner Laboratory, Inc., Bethesda, Maryland) configured for 0 to 1/8 in. (0 to 3.175 mm) wedge bend test. The bottom 3/4 in. (19.05 mm) of the panel is bent 180° over itself, exposing the coating to the outer surface, then sandwiched between two non-parallel steel plates that are hinged such that when completely together, they form a zero to 1/8 in. (0 to 3.175 mm) gap. The top plate is then impacted with the blunt end of the falling dart until the panel is bent from a zero to 1/8 in. (0 to 3.175 mm) wedge. The coated area over the bend is then wiped for approximately one minute with a 10% CuSO₄ /1N HCl solution which turns a copper-red color where the coating has failed and exposed steel metal. The percent pass value given in Table IV is calculated as the number of inches from the 1/8 in. (0 to 3.175 mm) end to the point of failure, as evidenced by the copper-red color, divided by the total 4 in. (101.6 mm) total length times 100.

                  TABLE IV                                                         ______________________________________                                         COATING PROPERTIES OF CATALYZED SYSTEMS                                        FORM-                                                                          ULATIONS                                                                       FROM           MEK      GARDNER     1/8 in.                                    EXAMPLE        DOU-     IMPACT      WEDGE                                      SAMPLE  OR COMP.   BLE      in.-        BEND                                   NUMBER  EXPT.      RUBS     lbs.  J     % Pass                                 ______________________________________                                         I       18         30-50    >180  >20.34                                                                               100                                    II*     C.E..sup.a B                                                                              >100     >180  >20.34                                                                               100                                    ______________________________________                                          *Not an example of the present invention.                                      .sup.a C.E. is Comparative Experiment.                                   

EXAMPLE 36 Clear Casting Properties with Imidazolium Fluoborate Catalyst

Tetrabromobisphenol A 136 grams (0.5 equivalents), 181.5 grams (1.0 equivalent) of D.E.R.™ 383, 4.3 grams (0.1 equivalent) of sulfanilamide, 24.8 grams (0.4 equivalents) are stirred at 100° C.-130° C. until homogeneous, then 0.871 grams (2.0 millimoles) of the catalyst described in Example 1 is added. The mixture is stirred until homogeneous, degassed via evacuation for approximately one minute, then poured into preheated aluminum molds spaced 1/8 inch apart. The castings are cured for 16 hours at 150° C., followed by three hours at 200° C. The casting is then cooled and removed from the aluminum mold for testing as shown in Table V, Example 36.

EXAMPLE 37 Clear Casting Properties with Tetrabutylphosphonium Fluoborate Catalyst (not an Example of Present Invention Described Herein)

Example 36 is repeated using 1.84 g (2.0 millimoles) of the catalyst described in Example 51. The testing results are shown in Table V, Example 37.

In these experiments, toughness is reported as the stress intensification factor, K_(q). The method for measuring K_(q) is an adaption of ASTM E 399-83 for plastics materials from the original usage with metals. The compact tension test is now widespread in usage and is described in the J. Mater. Sci., Vol., 16, 2657, 1981. An individual test piece is cut as an approximate 1 inch (25.4 mm) square from a flat casting usually of 1/8 inch (3.175 mm) thickness. A dovetail notch is cut into one edge, centered, about 1/4 inch (6.25 mm) in depth. Next, a razor blade is inserted into this notch and tapped to produce a precrack. Tow holes are then drilled adjacent to the dovetail as indicated in ASTM E 399-83, allowing the test piece to be pinned into position in the Instron test machine. Extension of the sample now allows the force required to propagate opening of the precrack to be measured, using a test speed of 0.02 inches/minute (0.0085 mm/sec.). This force is used in the equation given in ASTM E-399, along with the required sample dimensions and actual precrack length, to calculate a "stress intensification factor", K_(Q). This method is described by Lee, L. H. in Physicochemical Aspects of Polymer Surfaces, K. L. Mittal, ed., Plenum Press, New York, N.Y., 1983.

In these experiments, glass transition temperature (Tg) is measured by differential scanning calorimetry (DSC) using a calibrated DuPont Instrument (Model No. 912 with a 1090 controller). Samples are run under a nitrogen atmosphere with a temperature ramp of 10° C. per minute (0.1667° C./sec.).

                  TABLE V                                                          ______________________________________                                         CLEAR CASTING PROPERTIES OF                                                    CURED RESIN COMPOSITIONS                                                               CATALYST                                                                       FROM         Glass                                                     EXAM-   EXAMPLE OR   Trans.  Toughness                                         PLE     COMP.        Temp.   K.sub.q                                           NUMBER  EXPT.        °C.                                                                             psi × in.sup.0.5                                                                 MPa · M.sup.0.5                  ______________________________________                                         36       1           154     890     0.979                                     37*     52           145     990     1.089                                     ______________________________________                                          *Not an example of the present invention.                                

EXAMPLE 38 Preparation of Ethyltriphenylphosphonium Fluoborate Complex (not an Example of Present Invention Described Herein)

A glass flask fitted with a stirrer, thermometer, and reflux condenser is charged with 11.4 grams of a 71.9% methanol solution, by weight, of ethyltriphenylphosphonium acetate.acetic acid (ETPPA.HAc) complex (0.0200 moles). To this stirred solution, 3.682 grams (0.0224 moles) of a 53.4% by weight aqueous solution of fluoboric acid (1.12 moles per mole of ETPPA.HAc) are slowly added during about five minutes. The heat from the reaction warms the solution to approximately 50° C. The solution is stirred for an additional 30 minutes as it cooled to near ambient temperature. Methanol is then added, 10.22 grams, to dilute the solution to 40% solids based on the weight of the ethyltriphenylphosphonium fluoborate complex.

The weight percent of ETTPA.HAc in methanol was determined by titration of the acetate group with 0.1006N perchloric acid (HClO₄) in acetic acid to a crystal violet endpoint (blue to green endpoint). It required 12.80 ml (0.001280 moles) of perchloric acid solution to titrate 0.7295 g of ETPPA.HAc/methanol solution dissolved in 15 ml of dichloromethane, which calculates to 71.9 wt. % of ETPPA.HAc in methanol.

EXAMPLES 39-45 Preparation of Ethyltriphenylphosphonium Fluoborate Complexes (not an Example of Present Invention Described Herein)

The procedure described in Example 38 is repeated using the same procedure and amount of ETPPA.HAc, however the weight of fluoboric acid (53.4% aqueous solution) is varied as shown in Table IV. All experiments are diluted with methanol to 40% solids based on the combined weights of ETPPA.HAc and fluoboric acid.

                  TABLE IV                                                         ______________________________________                                         ETHYLTRIPHENYLPHOSPHONIUM FLUOBORATE                                           COMPLEXES WITH VARYING RATIOS                                                  OF FLUOBORIC ACID                                                                         FLUOBORIC   MOLES FLUOBORIC                                         EXAMPLE    ACID SOL.   ACID PER MOLE OF                                        NUMBER     (grams)     ETPPA · HAc                                    ______________________________________                                         39*        3.123       0.95                                                    40*        3.353       1.02                                                    41*        3.517       1.07                                                    38*        3.682       1.12                                                    42*        3.876       1.17                                                    43*        4.010       1.22                                                    44*        4.175       1.27                                                    45*        4.339       1.32                                                    C.E..sup.a E*                                                                             0.0.sup.b   0.0                                                     ______________________________________                                          *Not an example of the present invention.                                      .sup.a C.E. is Comparative Experiment.                                         .sup.b Ethyltriphenylphosphonium acetate · acetic acid complex        alone as catalyst.                                                       

EXAMPLE 46 Preparation of Tetrabutylphosphonium Fluoborate Complex (not an Example of Present Invention Described Herein)

A glass flask fitted with a stirrer, thermometer, and reflux condenser is charged with 6.20 grams (0.01 moles) of a 60.9% methanol solution, by weight, of tetrabutylphosphonium acetate.acetic acid complex (TBPA.HAc). To this stirred solution, 2.00 grams (0.0122 moles) of a 53.4% by weight aqueous solution of fluoboric acid (1.22 moles per mole of TBPA.HAc) are slowly added during about five minutes. The heat from the reaction warms the solution to approximately 50° C. The solution is stirred for an additional 30 minutes as it cooled to near ambient temperature. Methanol is then added, 3.916 grams, to dilute the solution to 40% solids based on the weight of the tetrabutylphosphonium fluoborate complex.

The weight percent of TBPA.HAc in methanol was determined by titration of the acetate group with 0.1006N perchloric acid (HClO₄) in acetic acid to a crystal violet endpoint (blue to green endpoint). It required 10.15 ml (0.001015 moles) of perchloric acid solution to titrate 0.6301 g of TBPA.HAc/methanol dissolved in 15 ml of dichloromethane, which calculates to 60.9 wt. % TBPA.HAc in methanol.

EXAMPLES 47-54 Preparation of Tetrabutylphosphonium Fluoborate Complexes (not an Example of Present Invention Described Herein)

The procedure described in Example 46 is repeated using the same procedure and amount of tetrabutylphosphonium acetate.acetic acid complex (TBPA.HAc), however the weight of fluoboric acid (53.42% aqueous solution) is varied as shown in Table V. All experiments were diluted with methanol to 40% solids based on the combined weights of TBPA.HAc and fluoboric acid.

                  TABLE V                                                          ______________________________________                                         TETRABUTYLPHOSPHONIUM FLUOBORATE                                               COMPLEXES WITH VARYING RATIOS                                                  OF FLUOBORIC ACID                                                                         FLUOBORIC   MOLES FLUOBORIC                                         EXAMPLE    ACID SOL.   ACID PER MOLE OF                                        NUMBER     (grams)     TBPA · HAc                                     ______________________________________                                         47*        1.56        0.95                                                    48*        1.67        1.02                                                    49*         1.759      1.07                                                    50*        1.84        1.12                                                    51*         1.923      1.17                                                    46*         2.005      1.22                                                    52*        2.05        1.25                                                    53*         2.087      1.27                                                    54*        2.17        1.32                                                    C.E..sup.a F*                                                                             0.0.sup.b   0.0                                                     ______________________________________                                          *Not an example of the present invention.                                      .sup.a C.E. is Comparative Experiment.                                         .sup.b Tetrabutylphosphonium acetate · acetic acid complex alone      as catalyst.                                                             

EXAMPLES 55-63 Preparation of Other Fluoborate Complexes

The procedure of Example 38 is followed, using a ratio of 1.02 moles of fluoboric acid per equivalent of nitrogen containing compound as described in Table VI. Methanol is added to bring the percent solids based on the amine compound.fluoborate complex to 40% by weight.

                  TABLE VI                                                         ______________________________________                                         TETRABUTYLPHOSPHONIUM FLUOBORATE                                               COMPLEXES WITH VARYING RATIOS                                                  OF FLUOBORIC ACID                                                              EXAMPLE                                                                        NUMBER    NITROGEN CONTAINING COMPOUND                                         ______________________________________                                         55        PYRROLIDINE                                                          56        N-METHYLMORPHOLINE                                                   57        MORPHOLINE                                                            58*      BUTYLAMINE                                                            59*      DIBUTYLAMINE                                                          60*      TRIBUTYLAMINE                                                         61*      DIETHYLANILINE                                                       62        1-METHYLPYRROLIDINE                                                  63        PYRIDINE                                                             ______________________________________                                          *Not an example of present invention.                                    

EXAMPLE 64 Fluoborate Complex Via Silver Fluoborate (not an Example of Present Invention Described Herein)

Vacuum dried tetrabutylphosphonium chloride, 1.82 grams (0.0062 moles) is dissolved in 5.84 grams of methanol and added dropwise to 1.20 grams (0.0062 moles) of silver fluoborate dissolved in 3.46 grams of methanol. The suspension is stirred at 25° C. for 30 minutes, and the silver chloride removed by filtration. The tetrabutylphosphonium fluoborate solution is concentrated to 40% solids by weight via vacuum removal of the excess methanol.

EXAMPLE 65 Fluoborate Complex Catalyzed Epoxy/Phenolic Systems

The catalysts described in Examples 38 to 64 are mixed with a 1:1 molar ratio of a diglycidyl ether of bisphenol A having an epoxy equivalent weight of 181.5 (D.E.R. ™383 Epoxy Resin commercially available from The Dow Chemical Company) and bisphenol A (2,2-bis(4,4'-hydroxyphenyl)propane, PARABIS™ commercially available from The Dow Chemical Company) dissolved in the monomethylether of propylene glycol monoacetate (PMA). The epoxy resin (181.5 grams), bisphenol A (114 grams) and 73.88 grams of PMA are heated to 80°-100° C. under a nitrogen atmosphere until homogeneous, cooled to ambient temperature and 9.0 millimoles of catalyst added to 1.00 equivalent of epoxide in a manner that is described previously for Examples 18-34. Portions of these solutions are then stored at 50° C. and the 25° C. viscosity monitored as shown in Table VII.

                                      TABLE VII                                    __________________________________________________________________________     50° C. Stability Study                                                  __________________________________________________________________________                   Mol.                                                                           of                                                               Cat-          HBF.sub.4                                                        alyst         per                              % of Control                    from          Mol.                             Viscosity.sup.f                 Ex.  Phosporus                                                                               of P                                                                               Viscosity                        After                       or   Cont.    Cont.                                                                              Initial After 1 Day                                                                               After 14 Days                                                                            After                                                                              14                          CE.sup.a                                                                            Compound Cmpd.                                                                              Cps Pa · s                                                                    Cps   Pa · s                                                                     Cps   Pa · s                                                                    1 Day                                                                              Days                        __________________________________________________________________________     39*  ETPPA · HAc                                                                    0.95                                                                               364 .364                                                                               460   .460 --    --  <0.2                                                                               --                          40*  ETPPA · HAc                                                                    1.02                                                                               366 .366                                                                               408   .408 13565 13.565                                                                             <0.2                                                                               <6.8                        41*  ETPPA · HAc                                                                    1.07                                                                               356 .356                                                                               385   .385 1014  1.014                                                                              <0.2                                                                               <0.5                        38*  ETPPA · HAc                                                                    1.12                                                                               348 .348                                                                               370   .370  543   .543                                                                              <0.2                                                                               <0.3                        42*  ETPPA · HAc                                                                    1.17                                                                               348 .348                                                                               391   .391  623   .623                                                                              <0.2                                                                               <0.3                        43*  ETPPA · HAc                                                                    1.22                                                                               436 .436                                                                               749   .749 1352  1.352                                                                              <0.4                                                                               <0.7                        44*  ETPPA · HAc                                                                    1.27                                                                               755 .755                                                                               3204   .3204                                                                              --    --  <1.6                                                                               --                          45*  ETPPA · HAc                                                                    1.32                                                                               2211                                                                               2.211                                                                              10000 10.000                                                                              --    --  <5.0                                                                               --                          47*  TBPA · HAc                                                                     0.95                                                                               401 .401                                                                               570   .570 --    --   1.2                                                                               --                          48*  TBPA · HAc                                                                     1.02                                                                               389 .389                                                                               460   .460 --    --   1.0                                                                               --                          49*  TBPA · HAc                                                                     1.07                                                                               383 .383                                                                               444   .444 24378 24.378                                                                               .9                                                                                12.2                       50*  TBPA · HAc                                                                     1.12                                                                               377 .377                                                                               430   .430 6490  6.490                                                                                .9                                                                                3.2                        51*  TBPA · HAc                                                                     1.17                                                                               387 .387                                                                               407   .407  733   .733                                                                                .9                                                                                 .4                        46*  TBPA · HAc                                                                     1.22                                                                               376 .376                                                                               393   .393  572   .572                                                                                .8                                                                                 .3                        52*  TBPA · HAc                                                                     1.25                                                                               540 0.540                                                                              1457  1.457                                                                               --    --   0.7                                                                               --                          53*  TBPA · HAc                                                                     1.27                                                                               385 .385                                                                               462   .462  841   .841                                                                               1.0                                                                                 .4                        54*  TBPA · HAc                                                                     1.32                                                                               407 .407                                                                               936   .936 5900  5.900                                                                               2.0                                                                                3.0                        __________________________________________________________________________                   Mol.                                                                           of                                                               Cat-          HBF.sub.4                                                        alyst         per                              % of Control                    from          Mol.                             Viscosity.sup.f                 Ex.  Nitrogen of N                                                                               Viscosity                        After                       or   Cont.    Cont.                                                                              Initial After 1 Day                                                                               After 14 Days                                                                            After                                                                              14                          CE.sup.a                                                                            Compound Cmpd.                                                                              Cps Pa · s                                                                    Cps   Pa · s                                                                     Cps   Pa · s                                                                    1 Day                                                                              Days                        __________________________________________________________________________     55   Pyrrolidine                                                                             1.03                                                                               830 0.830                                                                              1136  1.136                                                                               1416  1.416                                                                              --  --                          56   N-methyl 1.03                                                                               718 0.718                                                                              845   0.845                                                                               1113  1.113                                                                               3.1                                                                               <5.6                             morpholine                                                                55   Morpholine                                                                              1.03                                                                               833 0.833                                                                              997   0.997                                                                               1412  1.412                                                                              --  --                          58*  Butyl amine                                                                             1.03                                                                               720 .720                                                                               889   0.889                                                                               1268  1.268                                                                              --  --                          59*  Dibutyl  1.03                                                                               602 .602                                                                               684   0.684                                                                               1049  1.049                                                                               3.4                                                                                 .5                             amine                                                                     60*  Tributyl 1.03                                                                               494 .494                                                                               580   0.580                                                                                849  0.849                                                                              --  --                               amine                                                                     C.E. I*                                                                             4-Phenyl 1.03                                                                               688 .688                                                                                 >2000 g                                                                            >200 g                                                                              --    --  --  --                               morpholine                                                                61*  N,N-Diethyl-                                                                            1.03                                                                               667 .667                                                                               865   0.865                                                                               --    --  --  --                               aniline                                                                   62   1-Methyl 1.03                                                                               663 .663                                                                               810   .810 1193  1.193                                                                              --  --                               pyrrolidine                                                               63*  Pyridine 1.03                                                                               733 .733                                                                               884   .884 1484  1.484                                                                              --  --                          C.E..sup.a E*                                                                       ETPPA · HAc.sup.b                                                              0   1053                                                                               1.053                                                                              >200,000 g                                                                           >200.sup.                                                                           --    --  --  --                          C.E..sup.a F*                                                                        TBPA · HAc.sup.c                                                              0   898 .898                                                                               .sup. 47.557                                                                              >200,000 g                                                                           >200                                                                               --  --                          C.E..sup.a G*                                                                       Dibutylamine.sup.d                                                                      0   1169                                                                               1.169                                                                              .sup. 20.328                                                                              >200,000 g                                                                           >200                                                                               --  --                          C.E..sup.a H*                                                                       N-Methyl-                                                                               0   1330                                                                               1.330                                                                              .sup. 26.999                                                                              >200,000 g                                                                           >200                                                                               --  --                               morpholine.sup.e                                                          __________________________________________________________________________      *Not an example of the present invention.                                      .sup.a Examples are designated by numerals whereas comparative experiment      are disignated by letters.                                                     .sup.b Ethyltriphenylphosphonium acetate · acetic acid complex        employed alone as catalyst.                                                    .sup.c Tetrabutylphosphonium acetate · acetic acid complex            employed alone as catalyst.                                                    .sup.d Dibutylamine employed alone as catalyst.                                .sup.e Nmethylmorpholine employed alone as catalyst.                           .sup.f This value is determined by dividing the viscosity obtained in the      appropriate example by the viscosity of a comparable formulation employin      as the catalyst the same nitrogen or phosphorus compound except that it        has not been reacted with HBF.sub.4.                                           .sup.g Composition viscosity exceeded the test method (>200,000 cps).     

What is claimed is:
 1. An indolazinonium compound represented by the following formula XXI ##STR59## wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f) and R^(g) is independently hydrogen or a hydrocarbyl group having from 1 to about 18 carbon atoms or such hydrocarbyl groups containing an oxygen, sulfur, cyano or halogen substituent; and X is the anion portion of an acid having a weak nucleophilic anion.
 2. An indolazinonium compound of claim 1 wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f) and R^(g) is independently hydrogen or a hydrocarbyl group having from 1 to about 9 carbon atoms or such hydrocarbyl groups containing a chloro, bromo or cyano substituent; and X is the anion portion of fluoboric acid, fluoarsenic acid, fluoantimonic acid, fluophosphoric acid, chloroboric acid, chloroarsenic acid, chloroantimonic acid, chloro-phosphoric acid, perchloric acid, chloric acid, bromic acid, or iodic acid.
 3. The product of claim 1 wherein each R^(a), R^(b), R^(c), R^(d), R^(e), R^(f) and R^(g) is independently hydrogen, or a hydrocarbyl group having from 1 to about 9, carbon atoms.
 4. The product of claim 3 wherein said indolazine compound is indolazine, 1-methylindolizine, 2-methylindolizine, 3-butylindolizine, 5-methyl-1-propylindolizine, 2-ethyl-1-methyl-indolizine, 6-(3-hydroxypropyl)indolizine, 3-phenylindolizine, 7-benzylindolizine, 2-phenyl-3-methylindolizine, 5-cyanoindolizine, 7-chloroindolizine, 3-bromo-5-methylindolizine, or any combination thereof. 